Intrinsic Properties of the Knee Extensor Muscles After Subacute Stroke |
| |
Authors: | Astrid M Horstman Karin H Gerrits Marijke J Beltman Peter A Koppe Thomas W Janssen Arnold de Haan |
| |
Institution: | a Research Institute MOVE, Faculty of Human Movement Sciences, VU University Amsterdam, The Netherlands b Duyvensz-Nagel Research Laboratory, Rehabilitation Centre Amsterdam, Amsterdam, The Netherlands c Institute for Biomedical Research into Human Movement and Health, Manchester Metropolitan University, Manchester, UK |
| |
Abstract: | Horstman AM, Gerrits KH, Beltman MJ, Koppe PA, Janssen, TW, de Haan A. Intrinsic properties of the knee extensor muscles after subacute stroke.ObjectiveTo characterize muscle properties of paretic lower-limb (PL) and nonparetic lower-limb (NL) knee extensors in patients with subacute stroke.DesignCase-control study.SettingRehabilitation center research laboratory.ParticipantsPatients with subacute stroke (n=14) and able-bodied age-matched control subjects (n=12).InterventionsNot applicable.Main Outcome MeasuresHalf relaxation times (HRTs) and maximal rates of torque development (MRTDs) were assessed as indicators of contractile speed using both voluntary and electrically evoked contractions. Moreover, changes in torque were measured during a fatigue protocol (35 electrically evoked intermittent contractions; 1.5s on, 2s off) and recovery.ResultsNo differences among groups were found for normalized MRTDs during electrically evoked contractions (P=.117). However, during voluntary contractions both PLs (53% of control, P=.022) and NL (71% of control, P<.001) had significantly lower MRTD compared with control. Both PL (134% of control, P=.001) and NL (123% of control, P=.032) had significantly higher HRTs than control, indicating muscle slowing in patients with subacute stroke. PLs fatigued more and faster than control (P=.011) and both PL and NL recovered slower (P<.001).ConclusionsThe changes in HRTs and fatigue suggest adaptations in muscle properties toward slower, more fatigable muscle shortly after stroke. The inability to make use of contractile speed because of impaired neural activation seems the most limiting factor during the initial phase of torque development in PL. Thus, besides strengthening, muscle endurance and speed should also be addressed during rehabilitation. |
| |
Keywords: | Electric stimulation Fatigue Muscle relaxation Quadriceps muscle Rehabilitation |
本文献已被 ScienceDirect 等数据库收录! |
|